Abstarct: Textile composites have high strength, high modulus and impact resistant materials. Therefore, they are used in various applications such as marine, air, military, aerospace, automotive, sports, medical, and other industries. They are usually made of highperformance fibers and a matrix, in a suitable way. In recent years, many studies have been done on the development of compound structures for protection against military strikes. Due to the mobility of humans and tools, the need for lightweight protective equipment seems essential. Today, high-performance textile composites are used in military applications for the use of bulletproof helmets, shields, anti-explosion walls, the body of military equipment, and installable kits on a machine for the protection of military equipment. The advantage of using high-quality compounding textiles, such as ceramics, steel, and others, is primarily light and their higher level of protection in the same weight, and then, higher strength and modulus, better adapted and more convenient to use. The motive for this research was also to create a composite compound with a new and different composition and structure with high efficiency to withstand the impact. In this research, the use of Kevlar fibers and Polyester fibers as a reinforcement phase in a matrix composed of polyurea or epoxy resin, mechanical properties and absorption mechanism under different types of composites, including volume amount and type of fiber and resin, angle of position were investigated. Also, the effect of the geometry of this texture, including density and diameter, impact of sewing and pressing were studied.